ReactorThe broad understanding encompasses stainless steel vessels with physical or chemical reactions, requiring structural design and parameter configuration based on varying process conditions. Design, processes, inspections, manufacturing, and acceptance must comply with relevant technical standards to achieve the required heating, evaporation, cooling, and low to high-speed mixing and reaction functions. Pressure vessels must adhere to the GB150{Steel Pressure Vessels} standard, while atmospheric pressure vessels must comply with the NB/T47003.1-2009{Steel Welded Atmospheric Pressure Vessels} standard. The pressure requirements during the reaction process also vary the design requirements for the vessels. Production must strictly follow the corresponding standards for processing, inspection, and trial operation. Stainless steel reactors vary in design structure and parameters based on different production processes and operating conditions, meaning the structural styles of reactors differ, and they are considered non-standard vessel equipment.

The reactor is widely used in the oil, chemical, rubber, pesticide, dye, and food industries. It is a pressure vessel used for processes such as vulcanization, nitrification, hydrogenation, hydrocarbonation, polymerization, and condensation, such as reactors, reaction kettles, decomposition pots, and polymerizers. The materials commonly used include carbon manganese steel, stainless steel, zirconium, nickel-based (Hastelloy, Monel, Inconel) alloys, and other composite materials.